CN211850594U - Factory building iron fillings wear-resisting ground - Google Patents

Abstract

The utility model discloses a wear-resisting ground of factory building iron fillings, including the ground, fixedly connected with concrete mortar bottom on the ground, the inside packing of silicon rubber cushion has evenly distributed's reinforced concrete mortar layer, give fixedly connected with iron fillings mortar wearing layer on the heat dissipation layer. The device passes through the silicon rubber bed course, consolidate steel sheet and reinforced concrete mortar layer, the whole fracture phenomenon that sets up the concrete and cause has effectively been avoided, make the structural strength on ground, bradyseism and resistance to compression effect obtain great reinforcing, through the wire net enhancement layer, the graphite alkene packing layer, the iron fillings mortar enhancement layer, the support column, epoxy mortar layer and iron fillings mortar wearing layer, further strengthen the compressive strength on ground, realize multiple wear-resisting and anti-deformation effect to ground, improve its life, through heat conduction silica gel gasket layer, support the mating reaction on steel mesh layer and heat conduction iron powder layer, the heat conduction efficiency of ground inside has effectively been strengthened, the radiating effect is good, the ageing resistance can be superior.

Description

Factory building iron fillings wear-resisting ground

Technical Field

The utility model belongs to the technical field of building material, concretely relates to wear-resisting ground of factory building iron fillings.

Background

The main production commodity circulation in factory building workshop and heavily press heavily loaded storage area, because the requirement of production technology, often use fork truck, modes such as trailer in these areas carry raw and other materials, the spindle, machine part, the wheel is rolled frequently, produce huge rubs impact and vibrations wearing and tearing effect to the ground in these areas, heavy friction and high impact force make ground wearing and tearing serious, and also very easily cause too big heat to ground inside, make ground easy ageing, current wear-resisting ground structure is single, it is relatively poor to foretell guard action effect, the concrete placement bed course that uses usually also very easily breaks and loses, consequently, wait to improve.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wear-resisting ground of factory building iron fillings to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a wear-resisting ground of factory building iron fillings, includes the ground, fixedly connected with concrete mortar bottom on the ground, fixedly connected with silicon rubber cushion layer on the concrete mortar bottom, the inside packing of silicon rubber cushion layer has evenly distributed's reinforced concrete mortar layer, the upper end fixedly connected with wire net enhancement layer of silicon rubber cushion layer, the iron fillings mortar enhancement layer has been pour to the upper end of wire net enhancement layer, the epoxy mortar layer has been pour to the upper end of iron fillings mortar, fixedly connected with heat dissipation layer on the epoxy mortar layer, the heat dissipation layer includes heat conduction silica gel gasket layer, the inside on heat conduction silica gel gasket layer is equipped with heat conduction iron powder layer, give fixedly connected with iron fillings mortar wearing layer on the heat dissipation layer.

Preferably, the silicon rubber cushion layer is internally provided with uniformly distributed separation cavities, the middle parts of the separation cavities are fixedly connected with reinforcing steel plates, and the reinforced concrete mortar layer is poured on the separation cavities corresponding to the upper end and the lower end of each reinforcing steel plate.

This setting has effectively strengthened the structural strength of silicon rubber cushion through the mating reaction of reinforced concrete mortar layer and reinforcement steel sheet to high temperature resistance can be good, simultaneously, through the reinforced concrete mortar layer of separating the structure setting, has effectively avoided wholly setting up the concrete and the phenomenon of rupture that causes, thereby makes ground bradyseism and resistance to compression effect obtain great reinforcing.

Preferably, a graphite filler layer is arranged between the iron scrap mortar reinforcing layer and the steel wire mesh reinforcing layer.

The arrangement is beneficial to further enhancing the compressive strength of the ground, and the wear resistance and the deformation resistance are effectively enhanced.

Preferably, fixedly connected with evenly distributed's support column on the wire net enhancement layer, iron fillings mortar enhancement layer is rectangle rack column structure and pours on the support column, the epoxy mortar layer is rectangle rack column structure block and pours on iron fillings mortar enhancement layer.

This setting is favorable to strengthening the structural strength between iron fillings mortar enhancement layer and the epoxy mortar layer through the support column to through the setting of rectangle rack column structure, make more for inseparable interlock fixed between iron fillings mortar enhancement layer and the epoxy mortar layer, the cracked phenomenon of fault is difficult for appearing, is favorable to further strengthening its structural strength, thereby has further strengthened impact resistance, resistant vibrations, the wear resistance on ground, improves its life.

Preferably, a mounting groove is formed in the heat-conducting silica gel gasket layer, a supporting steel mesh layer is fixedly connected to the wall of the mounting groove, and the heat-conducting iron powder layer is fixedly connected to the mounting groove.

This setting has effectively strengthened the structural strength on heat dissipation layer through supporting the steel mesh layer to through the mating reaction of heat conduction silica gel gasket layer, support steel mesh layer and heat conduction iron powder layer, effectively strengthened the heat conduction efficiency of ground inside, the radiating effect is good, and the ageing resistance performance is superior.

Preferably, the upper end of the scrap iron mortar wear-resistant layer is fixedly coated with a polyurethane anticorrosive coating layer.

The arrangement is beneficial to the anticorrosion protection of the ground and the anti-aging performance of the floor is enhanced.

Compared with the prior art, the utility model discloses a technological effect and advantage: the workshop scrap iron wear-resistant ground effectively avoids the fracture phenomenon caused by integrally arranging concrete through the matching action of the silicon rubber cushion layer, the reinforced steel plate and the reinforced concrete mortar layer, thereby greatly enhancing the structural strength, the cushioning and the compression resistance effects of the ground, further enhancing the compression resistance strength of the ground through the matching action of the steel wire mesh reinforced layer, the graphene packing layer, the scrap iron mortar reinforced layer, the support pillar, the epoxy mortar layer and the scrap iron mortar wear-resistant layer, realizing multiple wear-resistant and deformation-resistant action protection on the ground, further enabling the scrap iron mortar reinforced layer and the epoxy mortar layer to be more tightly occluded and fixed, preventing the phenomenon of fault crack from occurring, being beneficial to further enhancing the shock resistance, the vibration resistance and the wear resistance of the ground, prolonging the service life of the ground, and through the matching action of the heat-conducting silica gel gasket layer, the support steel wire mesh layer and the heat-conducting iron powder layer, the heat conduction efficiency of the ground is effectively enhanced, the heat dissipation effect is good, and the anti-aging performance is excellent.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the heat dissipation layer of the present invention;

fig. 3 is an enlarged schematic structural diagram of a in fig. 1 according to the present invention.

In the figure: 1. a foundation; 2. a concrete mortar bottom layer; 3. a silicone rubber cushion layer; 301. a separation chamber; 302. reinforcing the steel plate; 303. a reinforced concrete mortar layer; 4. a steel wire mesh reinforcing layer; 5. a graphite packing layer; 6. iron scrap mortar reinforcing layer; 7. a support pillar; 8. an epoxy mortar layer; 9. a heat dissipation layer; 901. a thermally conductive silicone gasket layer; 902. mounting grooves; 903. supporting a steel mesh layer; 904. a heat conductive iron powder layer; 10. a wear-resistant layer of iron scrap mortar; 11. polyurethane anticorrosive paint layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-3, a wear-resisting ground of factory building iron fillings, including ground 1, fixedly connected with concrete mortar bottom 2 is gone up to ground 1, fixedly connected with silicon rubber cushion 3 is gone up to concrete mortar bottom 2, the inside packing of silicon rubber cushion 3 has evenly distributed's reinforced concrete mortar layer 303, the upper end fixedly connected with wire net enhancement layer 4 of silicon rubber cushion 3, iron fillings mortar enhancement layer 6 has been pour to the upper end of wire net enhancement layer 4, epoxy mortar layer 8 has been pour to the upper end of iron fillings mortar, fixedly connected with heat dissipation layer 9 on the epoxy mortar layer 8, heat dissipation layer 9 includes heat conduction silica gel gasket layer 901, the inside of heat conduction silica gel gasket layer 901 is equipped with heat conduction iron powder layer 904, give fixedly connected with iron fillings wear-resisting mortar layer 10 on the heat dissipation layer 9.

The silicon rubber cushion layer 3 is internally provided with uniformly distributed separation cavities 301, the middle parts of the separation cavities 301 are fixedly connected with reinforced steel plates 302, and reinforced concrete mortar layers 303 are poured on the corresponding separation cavities 301 at the upper and lower ends of the reinforced steel plates 302; the structural strength of the silicon rubber cushion layer 3 is effectively enhanced through the cooperation of the reinforced concrete mortar layer 303 and the reinforced steel plate 302, the high-temperature resistance is good, and meanwhile, the whole concrete is effectively prevented from being arranged and the fracture phenomenon caused is avoided through the reinforced concrete mortar layer 303 with the separated structure, so that the ground cushioning and compression resistance effects are greatly enhanced.

A graphite filler layer 5 is arranged between the scrap iron mortar reinforcing layer 6 and the steel wire mesh reinforcing layer 4; the compressive strength of the ground is further enhanced, and the wear resistance and deformation resistance are effectively enhanced.

The iron-dust mortar reinforced layer 6 is in a rectangular rack-shaped structure and is poured on the supporting columns 7, and the epoxy mortar layer 8 is in a rectangular rack-shaped structure and is clamped and poured on the iron-dust mortar reinforced layer 6; be favorable to reinforcing iron fillings mortar enhancement layer 6 and the structural strength between the epoxy mortar layer 8 through support column 7 to through the setting of rectangle rack column structure, make more for inseparable interlock fixed between iron fillings mortar enhancement layer 6 and the epoxy mortar layer 8, the fracture's phenomenon is difficult for appearing, is favorable to further strengthening its structural strength, thereby has further strengthened impact resistance, shock resistance, the wear resistance on ground, improves its life.

A mounting groove 902 is formed in the heat-conducting silica gel gasket layer 901, a supporting steel mesh layer 903 is fixedly connected to the wall of the mounting groove 902, and the heat-conducting iron powder layer 904 is fixedly connected to the mounting groove 902; the structural strength of the heat dissipation layer 9 is effectively enhanced through the supporting steel mesh layer 903, and the heat conduction efficiency of the ground inside is effectively enhanced through the cooperation of the heat conduction silica gel gasket layer 901, the supporting steel mesh layer 903 and the heat conduction iron powder layer 904, so that the heat dissipation effect is good, and the ageing resistance performance is superior.

The upper end of the scrap iron mortar wear-resistant layer 10 is fixedly coated with a polyurethane anticorrosive coating layer 11; is beneficial to the anticorrosion protection of the ground and enhances the ageing resistance of the ground.

Specifically, during the use, through the cooperation of silicon rubber bed course 3, reinforcement steel sheet 302 and reinforced concrete mortar layer 303, the fracture phenomenon that whole setting concrete caused has effectively been avoided, thereby make the structural strength on ground, the bradyseism and the resistance to compression effect obtain great reinforcing, through the cooperation of wire net enhancement layer 4, the graphite alkene packing layer, iron fillings mortar enhancement layer 6, support column 7, epoxy mortar layer 8 and iron fillings mortar wearing layer 10, further strengthen the compressive strength on ground, realize the multiple wear-resisting and anti-deformation effect protection to ground, and, make between iron fillings mortar enhancement layer 6 and the epoxy mortar layer 8 more closely the interlock is fixed, the phenomenon of fault crack is difficult to appear, be favorable to further having strengthened the shock resistance, the resistant vibrations, the wear resistance on ground, improve its life, through heat conduction silica gel gasket layer 901, The cooperation of supporting steel mesh layer 903 and heat conduction iron powder layer 904 effectively enhances the heat conduction efficiency of the ground interior, and has good heat dissipation effect and excellent ageing resistance.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. The utility model provides a wear-resisting ground of factory building iron fillings, includes ground (1), its characterized in that: a concrete mortar bottom layer (2) is fixedly connected on the foundation (1), a silicon rubber cushion layer (3) is fixedly connected on the concrete mortar bottom layer (2), the silicon rubber cushion layer (3) is internally filled with a reinforced concrete mortar layer (303) which is uniformly distributed, the upper end of the silicon rubber cushion layer (3) is fixedly connected with a steel wire mesh reinforced layer (4), an iron scrap mortar reinforcing layer (6) is poured at the upper end of the steel wire mesh reinforcing layer (4), an epoxy mortar layer (8) is poured at the upper end of the iron chip mortar, a heat dissipation layer (9) is fixedly connected on the epoxy mortar layer (8), the heat dissipation layer (9) comprises a heat-conducting silica gel gasket layer (901), a heat-conducting iron powder layer (904) is arranged inside the heat-conducting silica gel gasket layer (901), and the heat dissipation layer (9) is fixedly connected with an iron chip mortar wear-resistant layer (10).

2. The wear-resistant floor for plant iron chips as claimed in claim 1, characterized in that: the silicon rubber cushion layer (3) is internally provided with uniformly distributed separation cavities (301), the middle parts of the separation cavities (301) are fixedly connected with reinforced steel plates (302), and reinforced concrete mortar layers (303) are poured on the separation cavities (301) corresponding to the upper ends and the lower ends of the reinforced steel plates (302).

3. The wear-resistant floor for plant iron chips as claimed in claim 1, characterized in that: and a graphite packing layer (5) is arranged between the iron scrap mortar reinforcing layer (6) and the steel wire mesh reinforcing layer (4).

4. The wear-resistant floor for plant iron chips as claimed in claim 1, characterized in that: fixedly connected with evenly distributed's support column (7) on wire net enhancement layer (4), iron fillings mortar enhancement layer (6) are rectangle rack column structure and pour on support column (7), epoxy mortar layer (8) are rectangle rack column structure block and pour on iron fillings mortar enhancement layer (6).

5. The wear-resistant floor for plant iron chips as claimed in claim 1, characterized in that: the heat-conducting silica gel gasket layer (901) is internally provided with a mounting groove (902), the wall of the mounting groove (902) is fixedly connected with a supporting steel mesh layer (903), and the heat-conducting iron powder layer (904) is fixedly connected to the mounting groove (902).

6. The wear-resistant floor for plant iron chips as claimed in claim 1, characterized in that: the upper end of the scrap iron mortar wear-resistant layer (10) is fixedly coated with a polyurethane anticorrosive coating layer (11).

Images